Market Capitalization (Millions $) |
1,651 |
Shares
Outstanding (Millions) |
57 |
Employees |
2,386 |
Revenues (TTM) (Millions $) |
895 |
Net Income (TTM) (Millions $) |
-85 |
Cash Flow (TTM) (Millions $) |
92 |
Capital Exp. (TTM) (Millions $) |
34 |
Mercury Systems Inc
We deliver technology at the intersection of the high-tech and defense industries. The Mercury difference is driven by key "differentiators" we promise to deliver to all of our customers: Mission-Ready; Trusted and Secure; Software-Defined; and Open and Modular.
Mission-Ready: Fit for purpose to meet the demanding needs of our customers missions. Advanced thermal management and rugged packaging technology ensures optimal performance and reliable operation in the most challenging environments on earth and beyond. We deliver extended reliability and dependability through thermal management, component selection, environmental protection and testing.
Trusted and Secure: A trusted supply chain, with products designed and manufactured onshore. Advanced cryptography, secure boot and physical protection technologies like our BuiltSECURE technology can mitigate reverse engineering, deliver cyber resiliency and safeguard confidential data and IP against adversarial threats, even when a system has been compromised. We also design safety-certifiable BuiltSAFE processing systems up to the highest design assurance levels.
Software-Defined: Software enabled hardware for futureproofing, rapid scaling, ease of maintenance and affordability. Flexible hardware architectures that are reconfigurable and upgradeable with software to extend the life of our systems and the platforms they are deployed on. Our model-based systems engineering ("MBSE") design approach aims to significantly decrease the time and cost involved in developing and deploying Military and Aerospace platforms.
Open and Modular: "Plug and play", upgradeable and scalable. A modular, open, systems architecture ("MOSA") approach to system design maximizes technology reuse to dramatically reduce development time and cost. This open systems approach mitigates obsolescence risk while emphasizing commonality, interoperability and sustainability across platforms and domains.
The Mercury Processing Platform is designed to meet the full range of requirements in compute-intensive, signal processing, image processing and command and control applications. To maintain a competitive advantage, we seek to leverage technology investments across multiple product lines and product solutions. Examples of hardware products include small, custom microelectronics, embedded sensor processing subsystems, RF and microwave components, modules and subsystems, rugged servers and avionics mission computers.
Our products are typically compute-intensive and require extremely high bandwidth and high throughput. These systems often must also meet significant SWaP constraints for use in aircraft, unmanned aerial vehicles ('UAVs'), ships and other platforms and be ruggedized for use in harsh environments. They are primarily used in both commercial aerospace applications, such as communications and ground radar air traffic control, as well as advanced defense and intelligence applications, including space-time adaptive processing, synthetic aperture radar, airborne early warning, command, control, communication and information systems, mission planning, image intelligence and signal intelligence systems. Our products transform the massive streams of digital data created in these applications into usable information in real time. The systems can scale from a few processors to thousands of processors.
Components. Components represent the basic building blocks of an electronic system. They generally perform a single function such as switching, storing or converting electronic signals. Some examples include power amplifiers and limiters, switches, oscillators, filters, equalizers, digital and analog converters, chips, MMICs (monolithic microwave integrated circuits) and memory and storage devices.
Modules and Subassemblies. Modules and sub-assemblies combine multiple components to serve a range of complex functions, including processing, networking and graphics display. Typically delivered as computer boards or other packaging, modules and sub-assemblies are usually designed using open standards to provide interoperability when integrated in a subsystem. Examples of modules and sub-assemblies include embedded processing boards, switched fabrics and boards for high-speed input/output, digital receivers, graphics and video, along with multi-chip modules, integrated radio frequency and microwave multi-function assemblies and radio frequency tuners and transceivers.
Integrated Subsystems. Integrated subsystems bring components, modules and/or sub-assemblies into one system, enabled with software. Subsystems are typically, but not always, integrated within an open standards-based chassis and often feature interconnect technologies to enable communication between disparate systems. Spares and replacement modules and sub-assemblies are provided for use with subsystems sold by us. Our subsystems are deployed in sensor processing, aviation and mission computing and C4I applications.
By providing pre-integrated subsystems to our customers, we enable them to rapidly and cost-effectively port and adapt their applications to changing threats. This approach also saves our customers valuable time and expense, as their initial costs to integrate modules and components typically far exceed the costs of the individual product procurement. This benefit continues over time because we are continually investing R&D into our products. This allows us to provide our customers the latest technologies in our pre-integrated subsystems faster than they can typically do it themselves. We believe this is a better business and technology model to operate within, as it continues to provide value and benefits to us and our customers over time.
To address the current challenges facing the warfighter, our government and defense prime contractors, we have developed a new product architecture that supports a more dynamic, iterative, spiral development process by leveraging open architecture standards and leading-edge commercial technologies and products. Our open architecture is carried throughout our entire embedded computing product line from the very small form-factor subsystems to the high-end, where ultimate processing power and reliability is of paramount importance to the mission. Our commercially-developed product capabilities cover the entire intelligence, surveillance and reconnaissance ('ISR') spectrum from acquisition and digitization of the signal, to processing of the signal, through the exploitation and dissemination of the information. We work continuously to improve our hardware technology with an eye toward optimization of SWaP demands.
We partner with global tech leaders to align technology roadmaps and deliver cutting-edge computing in scalable, field-deployable form factors that are fully configurable to each unique workload. We use the latest Intel' server-class processing products, Xilinx Field Programmable Gate Arrays ('FPGA'), as well as NVIDIA GPU products in our embedded high-performance processing technologies. While this multi-computing and embedded processing technology is one of our core skills, the SWaP constraints that are encountered in connection with the high-performance embedded processing applications create unique challenges. For example, to deal with the heat build-up involved in small subsystems, we introduced a key technology called Air Flow-By' that enables previously unattainable levels of processing power within a small footprint by effectively removing heat so the server-class processors can perform at maximum designed power limits. In rugged environments where air is limited, such as high-altitude operations, our Liquid-Flow-By' technology has been successfully customer tested allowing maximum server-class processor performance. These innovative cooling techniques allow full performance server-class processing in rugged environments enabling new and advanced modes of operation that enhance the multi-intelligence, situational awareness and electronic warfare capabilities in military platforms.
Embedded systems security has become a requirement for new and emerging military programs and our security solutions are a critical differentiator from our traditional competition. Our security solutions, combined with our next-generation secure Intel' server-class product line, together with increasingly frequent mandates from the government to secure electronic systems for domestic and foreign military sales, position us well to capitalize on DoD program protection security requirements. Finally, our built-in security framework creates higher product differentiation, and drives greater program velocity, while lowering risk.
Company Address: 50 MINUTEMAN ROAD ANDOVER 1810 MA
Company Phone Number: 256-1300 Stock Exchange / Ticker: NASDAQ MRCY
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